Two adjacent maximums are measured at angles 32.50o and 45.80o from the central maximum. What is...

A diffraction grating with 180 slots/mm is illuminated with a light that contains only two wavelengths...

A diffraction grating with 180 slots/mm is illuminated with a light that contains only two wavelengths 400nm and 500 nm. The signal has aangle of incidence of 5 °. What is the angular distance between the second-order maxima of the two wavelengths? What is the smallest angle at which the two maxima overlap? What is the highest order at which maximums associated with the two wavelengths are present in the diffraction pattern?

A screen is placed 1.40 m behind a single slit. The central maximum in the resulting...

A screen is placed 1.40 m behind a single slit. The central maximum in the resulting diffraction pattern on the screen is 1.60 cm wide-that is, the two first-order diffraction minima are separated by 1.60 cm. What is the distance between the two second-order minima?

Light from a Hydrogen lamp is focused through a diffraction grating with 770 lines/cm and the...

Light from a Hydrogen lamp is focused through a diffraction grating with 770 lines/cm and the diffraction pattern is shown on a screen that is 5.30 m away. You notice in the pattern that there are two distinct purple dots that are 16.46 cm and 17.70 cm from the central maximum, corresponding to the first-order maxima for two different wavelengths of light emitted by the lamp. What is the difference between the two wavelengths (in nm) corresponding to these purple...

Two diffraction gratings, A and B, are located at the same distance from the observation screens....

Two diffraction gratings, A and B, are located at the same distance from the observation screens. Light with the same wavelength λ is used for each. The separation between adjacent principal maxima for grating A is 2.7 cm, and for grating B it is 3.2 cm. Grating A has 2448 lines per meter. How many lines per meter does grating B have? (Hint: The diffraction angles are small enough that the approximation sin(θ) ~ tan(θ) can be used.)

What is the distance between the slits of diffraction grating that produces second order maximum for...

What is the distance between the slits of diffraction grating that produces second order maximum for the second Balmer line at an angle of 15 degree?

It is found that when blue light, λ = 470 nm, passes through a diffraction grating...

It is found that when blue light, λ = 470 nm, passes through a diffraction grating with a slit separation d, the diffraction pattern has a third order maximum at an angle θ = 44.8o. At what angle will red light, λ = 660 nm, have it's second order maximum when passed through the same diffraction grating. A. 29.4o B. 39.7o C. 41.3o D. 31.6o

Orange Light, with a wavelength of 589 nm, from a distant street lamp passes through a...

Orange Light, with a wavelength of 589 nm, from a distant street lamp passes through a mesh screen in front of a window and creates a diffraction pattern on a wall 5.6 mm  away. Part A - What angle would be measured between the central maximum and the first order maxmium in the diffraction pattern? Part complete Assume the spacing between the wires in the mesh are 1 mm apart. 0.050.05 Degrees SubmitPrevious Answers Incorrect; correct answer withheld by instructor Part...

A diffraction grating with a width of 3.0 cm contains 8000 slits. At what angle, to...

A diffraction grating with a width of 3.0 cm contains 8000 slits. At what angle, to the nearest tenth of a degree, will the three-hundredth maximum be from the central maximum when light of wavelength 510 nm is incident on the grating?

A diffraction grating has 5000 rulings per centimeter. It is used to observe the light of...

A diffraction grating has 5000 rulings per centimeter. It is used to observe the light of wavelength 546.08 nm. 1) At what angle does the m = 2 maximum occur? 2) What is the highest order maximum observed and at what angle does it occur? 3) If this wavelength has to be resolved from a wavelength of 546.06 nm, what is the minimum chromatic resolving power required? 4) If the two wavelengths are to be resolved in the m =...

1. A diffraction grating is used to separate the spectral lines of light, emanating from a...

1. A diffraction grating is used to separate the spectral lines of light, emanating from a gas discharge tube (e.g., a neon light), that is normally incident on the grating. On a screen placed 2.0 m from the grating, the third-order (m = 3) interference maximum for violet light (λ = 4.4 × 10−7 m) is found to be 0.20 cm farther from the location of the central maximum (m = 0) on the screen than the second-order maximum of...